PHSC 1013: Physical Science Waves

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Mechanical Waves and Sound

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Presentation transcript:

PHSC 1013: Physical Science Waves Lecture Notes Download PDF Document Waves.pdf Powerpoint Slides Waves.ppt

Types of Waves Longitudinal wave Transverse Wave oscillations are in the direction of motion (parallel to the motion) Transverse Wave oscillations are perpendicular to the direction of Motion

Physical Examples Longitudinal wave Transverse Wave sound waves earthquake P-waves Transverse Wave water waves earthquake S-waves light waves

Wave Parameters Wavelength (l) length or size of one oscillation Amplitude (A) strength of disturbance (intensity) Frequency (f) repetition / how often they occur per second

Wave Properties Waves are oscillations and they transport energy. The energy of a wave is proportional to its frequency. Fast oscillation = high frequency = high energy Slow oscillation = low frequency = low energy The amplitude is a measure of the wave intensity. SOUND: amplitude corresponds to loudness LIGHT: amplitude corresponds to brightness

What is the Wave length? Measure from any identical two successive points (nm) 5 10 15 20 25 30 35 40

What is the Wave length? Measure from any identical two successive points (nm) 5 10 15 20 25 30 35 40 30nm – 10nm = 20nm

What is the Wave length? Measure from any identical two successive points There are 4 complete oscillations depicted here ONE WAVE = 1 COMPLETE OSCILLATION (nm) 5 10 15 20 25 30 35 40 22.5nm - 2.5nm = 20nm

Frequency Frequency = number of WAVES passing a stationary point per second (Hertz)

Frequency and Period Frequency (f) = number of oscillations passing by per second Period (T) = length of time for one oscillation T = 1/f f = 1/T If a source is oscillating with a period of 0.1 seconds, what is the frequency?

If a source oscillates every 5 seconds, its period is f = 1/(0.1) = 10 Hz It will complete 10 oscillations in one second. (10 Hz) If a source oscillates every 5 seconds, its period is 5 seconds, and then the frequency is…????

f = 1/5 = 0.2 Hz.

Wave Speed Wave speed depends on the wavelength and frequency. wave speed v = l f Which animal can hear a shorter wavelength? Cats (70,000 Hertz) or Bats (120,000 Hertz) l = v/f

Wave Speed v = l f Which animal can hear a shorter wavelength? Cats (70,000 Hertz) or Bats (120,000 Hertz) l = v/f Higher frequency = shorter wavelength Lower frequency = longer wavelength

Doppler Effect Change in frequency of a wave due to relative motion between source and observer. A sound wave frequency change is noticed as a change in pitch.

Doppler Effect for Light Waves Change in frequency of a wave due to relative motion between source and observer. c = l f speed of light = wavelength x frequency c = 3 x 108 m/s E = hf = hc/l energy of a light wave, a photon of frequency (f) or wavelength (l) h = planck’s constant 6.63 x 10-34 J-sec A light wave change in frequency is noticed as a change in “color”.

Constructive Interference Waves combine without any phase difference When they oscillate together (“in phase”)

Wave Addition Amplitude ~ Intensity

Destructive Interference Waves combine differing by multiples of 1/2 wavelength They oscillate “out-of-phase”

Wave Subtraction

Wave Properties Amplitude: Size of wave (perpendicular to direction of propagation) Proportional to Intensity(Sound loudness, Light brightness) Wavelength: l Size of wave (in the direction of propagation) Frequency: Number of waves passing a fixed position per second f (cycles/second, Hertz) Wave Speed: v = l f Frequency increases Frequency decreases Energy increases Energy decreases Wavelength decreases Wavelength increases

Interactive Demonstrations On The WEB Wave Addition Two-slit Light Interference Doppler Shift Simple Geometric Optics http://pls.atu.edu/physci/physics/people/robertson/applets/applets.html